// calcInputValueAge is a helper function used to calculate the input age of // a transaction. The input age for a txin is the number of confirmations // since the referenced txout multiplied by its output value. The total input // age is the sum of this value for each txin. Any inputs to the transaction // which are currently in the mempool and hence not mined into a block yet, // contribute no additional input age to the transaction. func calcInputValueAge(tx *wire.MsgTx, utxoView *blockchain.UtxoViewpoint, nextBlockHeight int32) float64 { var totalInputAge float64 for _, txIn := range tx.TxIn { // Don't attempt to accumulate the total input age if the // referenced transaction output doesn't exist. originHash := &txIn.PreviousOutPoint.Hash originIndex := txIn.PreviousOutPoint.Index txEntry := utxoView.LookupEntry(originHash) if txEntry != nil && !txEntry.IsOutputSpent(originIndex) { // Inputs with dependencies currently in the mempool // have their block height set to a special constant. // Their input age should computed as zero since their // parent hasn't made it into a block yet. var inputAge int32 originHeight := txEntry.BlockHeight() if originHeight == UnminedHeight { inputAge = 0 } else { inputAge = nextBlockHeight - originHeight } // Sum the input value times age. inputValue := txEntry.AmountByIndex(originIndex) totalInputAge += float64(inputValue * int64(inputAge)) } } return totalInputAge }
// indexBlock extract all of the standard addresses from all of the transactions // in the passed block and maps each of them to the assocaited transaction using // the passed map. func (idx *AddrIndex) indexBlock(data writeIndexData, block *btcutil.Block, view *blockchain.UtxoViewpoint) { for txIdx, tx := range block.Transactions() { // Coinbases do not reference any inputs. Since the block is // required to have already gone through full validation, it has // already been proven on the first transaction in the block is // a coinbase. if txIdx != 0 { for _, txIn := range tx.MsgTx().TxIn { // The view should always have the input since // the index contract requires it, however, be // safe and simply ignore any missing entries. origin := &txIn.PreviousOutPoint entry := view.LookupEntry(&origin.Hash) if entry == nil { continue } pkScript := entry.PkScriptByIndex(origin.Index) idx.indexPkScript(data, pkScript, txIdx) } } for _, txOut := range tx.MsgTx().TxOut { idx.indexPkScript(data, txOut.PkScript, txIdx) } } }
// mergeUtxoView adds all of the entries in view to viewA. The result is that // viewA will contain all of its original entries plus all of the entries // in viewB. It will replace any entries in viewB which also exist in viewA // if the entry in viewA is fully spent. func mergeUtxoView(viewA *blockchain.UtxoViewpoint, viewB *blockchain.UtxoViewpoint) { viewAEntries := viewA.Entries() for hash, entryB := range viewB.Entries() { if entryA, exists := viewAEntries[hash]; !exists || entryA == nil || entryA.IsFullySpent() { viewAEntries[hash] = entryB } } }
// spendTransaction updates the passed view by marking the inputs to the passed // transaction as spent. It also adds all outputs in the passed transaction // which are not provably unspendable as available unspent transaction outputs. func spendTransaction(utxoView *blockchain.UtxoViewpoint, tx *btcutil.Tx, height int32) error { for _, txIn := range tx.MsgTx().TxIn { originHash := &txIn.PreviousOutPoint.Hash originIndex := txIn.PreviousOutPoint.Index entry := utxoView.LookupEntry(originHash) if entry != nil { entry.SpendOutput(originIndex) } } utxoView.AddTxOuts(tx, height) return nil }
// checkInputsStandard performs a series of checks on a transaction's inputs // to ensure they are "standard". A standard transaction input within the // context of this function is one whose referenced public key script is of a // standard form and, for pay-to-script-hash, does not have more than // maxStandardP2SHSigOps signature operations. However, it should also be noted // that standard inputs also are those which have a clean stack after execution // and only contain pushed data in their signature scripts. This function does // not perform those checks because the script engine already does this more // accurately and concisely via the txscript.ScriptVerifyCleanStack and // txscript.ScriptVerifySigPushOnly flags. func checkInputsStandard(tx *btcutil.Tx, utxoView *blockchain.UtxoViewpoint) error { // NOTE: The reference implementation also does a coinbase check here, // but coinbases have already been rejected prior to calling this // function so no need to recheck. for i, txIn := range tx.MsgTx().TxIn { // It is safe to elide existence and index checks here since // they have already been checked prior to calling this // function. prevOut := txIn.PreviousOutPoint entry := utxoView.LookupEntry(&prevOut.Hash) originPkScript := entry.PkScriptByIndex(prevOut.Index) switch txscript.GetScriptClass(originPkScript) { case txscript.NonStandardTy: str := fmt.Sprintf("transaction input #%d has a "+ "non-standard script form", i) return txRuleError(wire.RejectNonstandard, str) } } return nil }
// AddUnconfirmedTx adds all addresses related to the transaction to the // unconfirmed (memory-only) address index. // // NOTE: This transaction MUST have already been validated by the memory pool // before calling this function with it and have all of the inputs available in // the provided utxo view. Failure to do so could result in some or all // addresses not being indexed. // // This function is safe for concurrent access. func (idx *AddrIndex) AddUnconfirmedTx(tx *btcutil.Tx, utxoView *blockchain.UtxoViewpoint) { // Index addresses of all referenced previous transaction outputs. // // The existence checks are elided since this is only called after the // transaction has already been validated and thus all inputs are // already known to exist. for _, txIn := range tx.MsgTx().TxIn { entry := utxoView.LookupEntry(&txIn.PreviousOutPoint.Hash) if entry == nil { // Ignore missing entries. This should never happen // in practice since the function comments specifically // call out all inputs must be available. continue } pkScript := entry.PkScriptByIndex(txIn.PreviousOutPoint.Index) idx.indexUnconfirmedAddresses(pkScript, tx) } // Index addresses of all created outputs. for _, txOut := range tx.MsgTx().TxOut { idx.indexUnconfirmedAddresses(txOut.PkScript, tx) } }